Sebastian Mehl, David P. DiVincenzo
Published 2014-08-05, updated 2014-11-26Version 2
The $s_z=0$ spin configuration of two electrons confined at a double quantum dot (DQD) encodes the singlet-triplet qubit (STQ). We introduce the inverted STQ (ISTQ) that emerges from the setup of two quantum dots (QDs) differing significantly in size and out-of-plane magnetic fields. The strongly confined QD has a two-electron singlet ground state, but the weakly confined QD has a two-electron triplet ground state in the $s_z=0$ subspace. Spin-orbit interactions act nontrivially on the $s_z=0$ subspace and provide universal control of the ISTQ together with electrostatic manipulations of the charge configuration. GaAs and InAs DQDs can be operated as ISTQs under realistic noise conditions.
Comments: 10 pages, 4 figures
Journal: Phys. Rev. B 90, 195424 (2014)
Pulsed-gate measurements of the singlet-triplet relaxation time in a two-electron double quantum dot
Spin of a multielectron quantum dot and its interaction with a neighboring electron
Observation of spin-orbit coupling induced Weyl points and topologically protected Kondo effect in a two-electron double quantum dot
![QR code for arXiv:1408.1010 [cond-mat.mes-hall]](http://oss.arxitics.com/images/favicon.svg)